Effect of Peptide-Lipid Conjugates Loaded PLGA Nanoparticles Against Cancer Cells In-Vitro

IF 2.9 4区医学 Q1 Medicine

Journal of biomedical nanotechnology Pub Date : 2023-08-01 DOI:10.1166/jbn.2023.3588

Reyhan Koyuncu, G. Duruksu, B. Ozcelik, Serap Mert, Y. Yazır

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Abstract

Complexes generated by oleic acid and milk α-lactalbumin, termed BAMLET, attracted attention because of their selective toxicity against a variety of tumors. However, the production efficiency of BAMLET needs to be increased. In this study, α-lactalbumin and hydrolyzed α-lactalbumin were separately combined with oleic acid to obtain BAMLET and hydrolyzed BAMLET (HBAMLET) respectively. For these complexes, nanoparticles were prepared using double emulsion method and PLGA polymer as carrier. Then the tumoricidal activity and toxicity of the BAMLET and HBAMLET complexes were analyzed on prostate cancer cells (DU145) and breast cancer cells (MCF7) In-Vitro. The most effective concentration of HBAMLET was found as 6.38 μg/mL, at which the viability of cancer cell lines was reduced to 64.63% (for MCF7) and 47.7% (for DU145). However, BAMLET was found to be less effective, reducing DU145 and MCF7 cell viability by 9.6% and 39.5% of at 2.14 μg/mL and 10 μg/mL, respectively. Unfortunately, BAMLET showed cytotoxicity on fibroblasts at higher concentrations. Encapsulated BAMLET and HBAMLET showed promising encapsulation efficiency (72.75% and 84.44%, respectively) with a low PDI value (0.098–0.096, respectively). It was concluded that the release of HBAMLET can be controlled and can be used as an active drug agent when it was loaded in PLGA-NPs.

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肽-脂结合物负载PLGA纳米粒子对体外培养的癌症细胞的作用

油酸和牛奶α-乳清蛋白产生的复合物，称为BAMLET，因其对多种肿瘤的选择性毒性而引起关注。然而，BAMLET的生产效率需要提高。在本研究中，将α-乳清蛋白和水解α-乳清白蛋白分别与油酸结合，分别获得BAMLET和水解BAMLET（HBAMLET）。对于这些配合物，采用双乳液法和PLGA聚合物作为载体制备了纳米颗粒。然后分析了BAMLET和HBAMLET复合物对前列腺癌症细胞（DU145）和乳腺癌症细胞（MCF7）In-Vitro的抑瘤活性和毒性。发现HBAMLET的最有效浓度为6.38μg/mL，在该浓度下，癌症细胞系的生存力降低至64.63%（对于MCF7）和47.7%（对于DU145）。然而，BAMLET的效果较差，在2.14μg/mL和10μg/mL时，DU145和MCF7细胞活力分别降低9.6%和39.5%。不幸的是，BAMLET在较高浓度下对成纤维细胞显示出细胞毒性。封装的BAMLET和HBAMLET显示出良好的封装效率（分别为72.75%和84.44%），PDI值较低（分别为0.098–0.096）。结果表明，当HBAMLET负载在PLGA NP中时，其释放是可以控制的，并且可以用作活性药物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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